BE642435A - - Google Patents

Description

       

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  The present invention relates to an improved transmission belt construction and method for achieving it; more particularly, the invention and relates to a plastic reinforced belt construction
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 and to improved casting methods for making it. The present invention is primarily concerned with the building and construction of a uniformly sized transmission unit for the entire body which allows for extremely careful placement of the tensile strength section. and the tensile strength section may be incorporated into the belt so as to force and release a one-piece or unitary belt construction.

   yard making * '
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 transmission size, adourity and longevity depend largely on the factors recalled oi-do * 4u at the same time, rIT! of high tensile strength and good resistance to bending fatigue, in the load-bearing section of the belt, the load-bearing section firmly and securely adhering to the belt.
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 time to the route of the aorta belt to obtain an optimal expansion of the oollîoïtatîons in the belt these are distributed uniformly in the whole of this section resistant to traction or load bearing * Good
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 of course, flexibility,

   wear resistance and impact resistance are additional factors to consider.



   In the past, however, it was credible practice
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 necessary to constitute transmission belts in separate or different materials, many of these layers

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 being processed ,. specially part10u11're.'nt the * action calls 1 to resist the traction to properly adhere to the rest of the saalontato belts before oonatmire the court. roto $ the titers or strands forming the resistance section of the belt were given a certain strand angle before treatment to establish 3x p? ep? i <t <j <9 <of the fatigue resistance by tl '=' OI1 and d.'a, t1tùe. pOl'- load them only times these threads incorporated daa.

   the strap * However, in practice it has been found difficult to keep the free or wire in place to retain the anal. given and for
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 to imptoher a relative movement with respect to the region of the belt which surrounded the fibers, and to maintain the desired placement and spacing of the aat1r'l which form the tension .0um1.8 k,

   movement which would risk producing it due to the need for repeated handling and treatment during the operation of constituting the belt. In addition * it is not possible to carry out in all cases a distribution. Appropriate construction of the stresses in the worries * traction section,

   because of the difficulties experienced by it in establishing the proper adhesion and in locating the tensile section relative to the body of the at least one
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 with the known methods of treatment and construction * Consequently # the present invention is long to avoid the difficulties of '.. nt1onn' ", griot has a new process and a new construction, to use in the tabrioation of transmission belts, For example, in a
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 kings of positive training or toothed belt $ e & a finds a way to place it accurately and 4toorpor. exact.

   the tensile-resistant section to the belt body
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 in a single operation, without performing totd processing. the material which constitutes the section resistant to
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 traottoni this way of doing ensuring characteristics

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 of extraordinary toningent bomb Ide the belt and greatly increasing the longevity of the obtained belt Mua specifically the process and the principle of construction of the meadow.

   This invention allows for a more complete oo.p'n't & t1on of the tensile-resistant etotion forming and the corpa tu .. 'la al had been r' & 1i. so far and # 00 latsanto make it possible to obtain a number of clean and distinct dta'rantageri of the new belt compared to the traneminoïon belts ... U1 As long as the construction piro- odddo used until 04 day 0 For example, the The tensile-resistant section can receive from edge to edge of the belt a very regular cross section which is moderately distributed to ensure distribution. very amiliordati of the solicitations and in such a way as the free ones or the threads.

     forming the station resist traotion do not tend to
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 Scaling had, as previously mentioned # to move or change alignment with respect to the belt rent, but remain in a predetermined position with an angle of tor.

   
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 predetermined zion ceneerve during the whole tour- rie,
It is therefore an object of the present invention to provide a transmission sight and a precede for manufacturing it, in which the body section of the belt can be provided.
 EMI4.4
 f be of a homogeneous material to which is incorporated a * action of reaforoemeat resistant to traction, which tomes an integral part * of the belt, so as to absorb and properly distribute the stresses and forces imposed * on the belt.



   Another object of the invention is to provide a belt comprising an incorporated tensile-resistant element,
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 this incorporation being such that the rim rallying of the edges and the progressive wear of the belt near

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 from the edge and # of ftooa. general, whether or not to obtain a more precise placement and improved tank distribution characteristics * of the remaining subject to treatment by giving rise to a very increased longevity of the belts Another aim of 3.'i & v <nti6a is to provide eon- etruotion 4 oourroi. of tran. # i, .ion dtune pibot or unit and a 1'1 "00'4 'to manufacture it in a number .2.Dun. 4 t" ap ..

   due to which the Section resist the traot10a toraaat 184- if the shell carried * from the hole can be pre- pleted and impregnated completely 0 with athinnot 008pl "., with the material forming the body of the belt so as to glaze 1 # 4 proo'4 ', apiolau de trai ".'. 1 and gout while reaching 9M '& and <sittitt â <tonot10.'At ta4H9ï <<Another object of the invention is to pMet.mw loa - belt breaker of the type. dontat in aflat tempo qufua pro- oddd of making etllw-oi, in which the ..ot10.

   , the load moulder can be formed from a precise lagoon and only do it in room with their teeth of the ouzroi, so as to absorb and support more directly their forces imposed on them. teeth and # on longer, to obtain duo o.ot'r1.ti, u ..... lior '"of longevity of the belt and of rdaîntanou to the tired by tlexion4 A luppl'm.nta1re goal of the The invention is prooutl a one-piece tranam11810n oourroit which can incorporate in the section resisting to the traotion uat mat1'rl either aatu. rel11 nott aynthitiquee in which one can * order and arrange at an angle and a desired position the fibers% or yarns form the Motion, all a predetermined degree of tension, then impregnate the fibers * completely by the material forming the belt so that the fibers are xoiwnt lis' "and aa1entenu ..

   'in the position and having the predetermined Mele throughout the belt yïo, in a relative arrangement oompaote

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 #t tv <e united firm adh ',. no..t thus form again Part of the belt 9a further additional goal of Itinvouttoa is to prove a simple process and 49r of tor, aat1ol1 dfune oourzo1. transmission due to which a textile section # pon, .. of thu- SI can be securely and ooaplktt united to the belt oorp4, the fibers which form the textile saotion being \ 10- qudto permanently under the ADI1. relative desired and the entire ose- tion being placed in a pre-oie way, although it is possible to yield # to establish the improved running characteristics of the belt * According to the present * Invention it was discovered ¯ut ..

   mmt that we can realize ooapleteaient the characteristics 4..ire ,. and the objects of the present invention in a process
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 new and new belt construction in which $
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 by t1 generally expressing any flexible and wear-resistant material ¯01'11 & 1.8121 ", whether it <t'i <of a <3.Mtea <plastic or liquid, can be Gaulated, depending on the form desired around an element with high tensile strength, such as a canvas fabric or a composite section A..or40 called still cordon or $ me or a homogeneous tau1. 44 so as to establish an extremely good adhesion and a high degree of penetration or impregnation of the action of tensile resistant fabric or cords and 6.

   which precedes to ensure the correct placement and alignment and provides for the tensile resistant section in the ûeuM6i $. Natuetl- lementg it is well known to cast TUlOan1eabi material "around a reinforcing element and to perform the casting |
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 we empty or all pressure $ However the present invention
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 offers improved casting techniques over glue @ which are currently in use and moreover tilt applies original lagoon techniques to the manufacture of cour-

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   kings * of transmission! and in this application,

     it provides a solution to a large number of problems which and presented
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 for a long time and eliminates by $ Proven drawbacks pre-produced in practice * Additional treats and benefits of 1 Invest
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 will appear better in the course of the following description lona14 '.

   screw in aeoooîîtïou with the drawings attached to the loan report which represent by way of example various embodiments of the invention, and in which *
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 Figure 1 is a side view of a typical casting assembly for performing the process of the present invention, with part of the assembly being cut away slightly; show the interior configuration of the mold - figure 2 is a partial perspective view of a preferred form of the transmission belt according to the present invention,

     @ Figure 3 is a partial perspective view of a modified volume of the present invention, and - Figure 4 is a partial perspective view
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 a y-shaped belt mold for use in a casting assembly, together with an eetiea trome belt.

     V-shaped vernal shaped according to the present invention *
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 Zn and bearing more particularly on the drawings, see therein in Figure 1, by way of illustration and without limitation, a casting assembly 10 consisting in its essential features of an inner mandrel or drum 12 and
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 a concentric outer ohemïat which is 4oartdop or vacuum chamber 1.,

   as well as a pressure pot container shown at 16 # containing a liquid dlantombre 17 and oomprom ning an introduction tube 18 arriving in the riooptavle 16 from the annular Iloopao * provided between the mandrel 12 and the outer ohaaf bre 14 * Zgaleaent, at the other end of the set,

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   a vacuum or discharge duct 19 is seen to establish communication between the annular space of the assembly and a vacuum pump (not mounted). As will still be appreciated, the drum or mandrel 72 can be corrugated,

   preferably by forming a series of regularly spaced ribs 20 and alternating grooves 21 therewith which extend around the periphery of the drum in a direction parallel to the longitudinal axis of the drum. In the casting assembly as mounted,

     the grooves 21 are of a configuration such as to constitute a mold for forming the tooth elements of a tooth type belt construction and the entire mandrel is of a length which permits the manufacture of 'a continuous belt strip which can be divided into a desired number of predetermined wide webs, all in a well-known fashion @ *
By carrying out the process according to the present inventions and before the introduction of the drum 12 into the chamber 14,

   a stress-resistant member 22, or tensile-resistant zection, may be wound around the mandrel in direct contact with and carried by the series of peripheral ribs 20. As shown, this tensile-resistant section may consist of a single layer of cords, which can be formed by winding a cord with closely spaced turns and regularly arranged around the mandrel, preferably under a predetermined degree of tension, of one end to the other,

   with the ends 24 of the cord being attached to or properly carried by the end of the mandrel by means of the usual pin 25 or by other suitable means * in this connection, it should be noted that no use is made of it. no other tie arrangement.

   In addition, the cord, which can be a cotton or synthetic cord, of very stable dimensions, must not be treated or pre-treated in any way whatsoever before being wound on the drum *

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 the drum 12 can be enclosed with introduced 4 into the external vacuum heater 149 which is then made completely sealed at atmospheric pressure in order to be able to obtain this jacket My vacuum pushes the material 'la.'o.'1 "liquid 11. which will be described in more detail o1-apr., is first 00Ilp1 "I.



  Mat 4'a &. ", Then collected rené 4ana on reo1 1 .., 160 after which the introductory tube there can be immersed 4anl 00 pressure pot 160 In addition the" 8paol annulai "contained in the chM5bï '$ t also completed 'tlmtat irwxi or emptied of air before the entry of the shadow 17 of the lagoon at 41jajuer all .. r1.ona, - * have 4'a1r 4ana 1 <M expaetw empty between the ribs or ta "the mtebre of the e3pdea * him '-m8aw, vïdw * which otherwise might tend to cause cavities * in the resulting belt construction or a penetration defect of the tensile-resistant element For this purpose # the tube d * entr4o 16 can be fo = d by a va = * suitable not shown @ to evacuate 1 "1" 0 '4m- nula1l'e in view * to remove all the air which could be there hell.

   
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 % il then we can open the valve to cause the flow
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 of the ..t1'r..laltom'l'l 11 daDa the annular eepaoe. A1aI1, 1- vacuum pump (not shown *) 4 * will help to properly prepare the tensile-resistant section for casting proot4ous * # and will also serve to induce material flow 'l..to.' 1 "throughout the mold.

   Mud oontexiabll measure the necessary amount of material flow 1 "due to MpMt to 1 & 11" to fill it completely, one can provide a. your examination at 1 opposite end close to the vacuum ûoaduitw for, observe when the liquid Initially begins to flow auto, 1% 'of the corresponding end * of the drum, or alternatively we can adjust the flow for a period of time predetermined a whole TL- of predetermined to execute the process of casting * and forming
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 belt nation.

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 A variant 8uppl'.lntd.l't followed.

   we can dispose
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 vertically the drum and the entire outer chamber
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 with the inlet tube at the bottom and the 4'4vlouat1oD pipe at the top to ensure a complete filling of the annular space when the liquid material and molds even out by 4 * 4 * u Upper Itextrdmïté of the drum * By the way, we noticed and observed that when the liquid is brought to etdoouler in the cavity or in the space annvla1r. all empty # and with 4'la .... complete of liquidated material and pre-4vacuation of annular Itoupace. the liquida tends to% # flow right through and completely in 1 empty apaott defined by altlraanoe don lier- vurea 20 and don grooves 21 # the most # although the bead has been int-oul 'tightly around the mandrel the material will nevertheless tend to form a film between the bead and the ribs 20.

   In addition, the liquid material penetrates more completely or permeates the oordon layer more completely, e'e8t - & - disw that it completely surrounds all the filaments. fibers which form the fila îndividuela of the coidoni by completely enclosing all the inter.ti0 "between the tibr ...... in this way, when the material is pixo, <U <Nmiatitat lot fîlo 'in the position and at the desired angle the material also forms a section of body continuing $ # extending around the fibers or * filaments so 4 hold them tightly together and, in effect, unites or integrates the section of oordoa
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 itself to the body in aorta to form a unitary court construction, or of a part.
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  Following the drunkenness operation, one can vulta-
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 in the usual way, the belt forming tape which
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 and found on the mandrel, for example by placing the mandrel 19 and the sleeve 14 in a vuloaniettîon furnace or in another
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 suitable device for the necessary time depending

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 the type of construction and the dimensions of the belt After vul9aaia <ttioa et rttroidis statat 4t the bands can be removed from the mandrel and proceed to a usual slicing or cutting operation to divide the band at the 1nd1T1duIlll belts, the construction of the belt which The result is noutrit .. figure a where it will be noted that a belt "entZ'atn '.' I1;

   positive 23 consists of the continuous layer * of beads 22 uniformly distributed $$ constituting uni * @ Otton r'81.tant. the traction which. '. tends along the circle 4.' rao1n. and oonatituamt the basis of several elements forming teeth a6. A pellîou- thin on / 3? on the lower side of the beads and between the elements constituting the teeth 26 and a section covering the beads, 28,
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 complete the construction of the aourroîtê According to the drawing it will also be noted that the elements tdmant the teeth 26, #IL mime as the thin layer had film 2? and the layer 28 which covers the cordontit torment in combination with a layer of material bodies.

   homogeneous in which the material completely penetrates the section resistant to the traotion and the bead., and where other materials or adhesives do not intervene **
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 3If more during the cutting or slicing operation &## the belt can be cut over any width, taking into account the arrangement of the cords and,

       if it is necessary and as shown a part of a strand of bead can pull bent as shown for an edge bead 29, as long as there is a ,, risk of seeing the edge fraying during operation , due to 1 complete impregnation of * ordo
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 by elaitotaary matter, In the process of 0091 "ddorit o1-4e..u.,

   various liquid elastomers or plastics can be used
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 organic like plastisol, liquid neoprene, liquid thiooole, renin $ polyester #, 104 spike resins, in mlm.

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 time than a lot of other.

   For example, good results are obtained using a polyurethane tube which possesses diaxoellentes properties including exceptional values of drag resistance.! resistance to a: # aohl..nt or tear # r'.i.1ano .. abrasion, oil resistance and h 3 resistance, 'o <ca <, which are very desirable in the appltoat1? nJ of the transmission belts * In addition $ the product Mtlogu <to hardened or vulcanized etoutobouo which one obtains, can be made very z1. ble and to receive other desired properties by using it 34. suitable mixture therewith of other ingredients of compost.

   One can prepare one of the rubber * of palyuzth <uK, stretched under the brand 4 * manufactures "Adipeeae &", of
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 as follows 100 part of a renin derivative of the type
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 iaooyaaate can first be heated apprexizativeatent to a temperature of 7060 to make the material fluid, after which
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 it can be degassed by evacuating the air in a room
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 suitable vacuum * 20 parts of a plasticizer such as pot
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 diootyl late can then be incorporated by mixing
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 to make the material softer and to improve its color.
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 lability, Generally, one can use as a catalyst
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 vulcanization a pol1tonotionnll compound containing aot1tl hindered hydrom.

   Bench 0 # goal, It part $ of - <#, 4 'methylene bîo (2 chloranilïne) o product sold in the trade all the non of the trademark XOCÀ # have been found and suitable if we can abrod the chautterg then mix them and the $ "1 & 1.1 with the other ingredients before pouring them into the pressure pot 16.

   The vacuum jacket can then be installed outside the drum and form it in a sealed manner with respect to atmospheric pressure. After closing the inlet valve 18, the cavity formed between the drum 1 'is evacuated. 1 "the paths 14 for a period sufficient to tie the element of air and other trapped fluids.

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 when the pressure pot 11 is put eonvtnablwawat in place ooaaw shown at fi ,;

  ure 19 and that the oavité * 419 ooaplêtetaent evacuated, we open the inlet tube 18 and we make - tonotio = er the pump & vacuum for an additional time to cause ltdogulenout 4e the retaining of the poly type = dtbant 4year. the cavity * in dead to completely fill the oopao o which surround the material of the cord in .p1ra1, and to impedaner 008p1 "8., n 'the material 00 = 4 mentio = df * sot poitt and realize in recluit the aot10n of the empty for a 4u: ', predetermined * a pre.a10n predetermined depending on the type 4 "1"' 0.'1 "used or in .urY.il1an 'Ittlot1YI..n' le for 4" 8J: 8i- ner le moment Ob the cavity has é1;

  é completely filled, we found that alor. a regular and complete r.mpl1..a .. of the parity is carried out due to the commando ptdoiot of the 81'1'1'1 '.i of the force-feeding to remove the air <ap? iaoïm <and 1 others heap # adding a plasticizer daM this operation $ of course we have sufficient time to produce 3. ' 'ooule ...;

   due to the cavity * having that the material 00 = enoo to duroirea following the introduction of the elaetooere in the oavîtdf we can place it together in a vulcanization tower and bake it for about 4 hours ... 1000o t $ nP During which 4 ... 'tioulat1oAl j will not establish between the ingredients which constitute the poly = d-thanop and it is also assumed that the ingredients will react in a. to some extent areo the material of the cord and will exhibit to a limited degree chemical bonds lice improve the a4h '. hold between the bead and the surrounding material.

   After vuoantastien, during the necessary time $ we remove the anl..b1. from the oven it is allowed to cool down and the drum is then removed from the empty path, after which the strip constituting the belts is removed from the * swell *. At this point 4 * view # it naturally Ipuha1tabl. before pouring # any lubricant to the inner surface of the vacuum jacket

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 and to the upper surtao * tzt4rieure of the drum to deflect the movement to the drum and of the band constituting the belts. The band can then be cut or cut continuously to produce a number of belts of width 4..ir ',.

   la '.riant., we can give the instablt a quit under high temperature to fix the elaetomkreé the aanchoa constituting the * belts can then be seen3.oaie << still alone in an oven in the back-to-back sisters to complete the operation of YUloan1.at10A. or bi8n, or can leave it at room temperature for a sufficient hose to unwind duo physical properties o, l1aa1 ...



  In addition $ it is evident of course # that Iton can add # pigments to the ingredients during the composition operation * Moroquo we use charges # of coloring eeapc'- and other pigments # we must grind them in the prd -polymbre or in the plasticizer before incorporating them into the polrur'than. in order to obtain an optimal dispersion of the pigments and to make it easier to mix * final Ingenerated and the aat1r. and shows too viscous to $$ run out oonrenableaeat dan. the ohambr., we can apply an external pressure in oomb:

  l.aa1.on with the vide applies to the tank 4 "l..tom'r. liquid 17, applying a pressure external to the pressure pot 16, thus achieving a higher differential pressure than useful which * and establishes between the atmospheric pressure and the working -ride, so as to fill the spaces completely and to harmonize ooxplbtemblit
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 the cord * By a suitable dresser and $ election of the
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 dark matter liquidated at the same time as a preparation
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 appropriate mold and material so as to release everything
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 air-trapped, and with the effect of internal ret1oulaton which.

   take place during vulcanization in the polymer that surrounds the

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 cord had the carpet resist the tao'1oft, the layer r4siom so much to the traction this brought to adhere firmly to the body and the strands. killed blocked in one position and following an anal.
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 determined * In addition $ the layer which has to resist the traction can be wrapped tightly * and stretched over the base plate and it has been found that the shadow will penetrate the layer of the tensile layer to the point of forming a film real.

     free during the casting @ between the layer and the ribs 20 and, in addition, will keep this oouohe taut and tight so
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 compact $ in aorta to significantly increase "8 oarao.

   properties of good bending behavior and longevity * From this point of view, it has been found that the elastomeric material will achieve a high degree of impregnation with a lot of type *
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 yarns or fibers and textile yarns such as cotton deoroup, nylon, rayon,

   de fortieaa and others and that one does not depend on the properties of the tear-resistant section itself to achieve the desired result. For example there is shown in Figure 3 a tooth type belt construction prepared according to the casting process of the present invention.
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 yent1on, and in which one can use a section of rd e1.t8no ... the pull 51 comprising a nylon sheet instead of the cord section. 22 shown * in figure 1.

   Without the winding operation of course, the tensile resistant nylon fabric 31 may be wound as a single sheet around the drum 12, with its ends arranged overlapped, as shown at 32, and adhering to the drum. 'to each other, or combined in preparation for the casting operation, Of course, for applications under hard-served conditions,

     the layer formed by the film can be rolled up
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 the resistant 'the traetiont a number of liver around the drum to form several lying which overlap in aorta to eliminate as much as possible a weak section in the

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 belt, and the shadow will serve to have a dull and permanent lagoon. the layers # in the desired position, 1 nrlou or other oyathetic material can also .1; zo..nft14 turn the - mandrel 12 us torm. of a tube made to constitute an endless 180- tîon and to eliminate the n'o'I.1I ...! 4'UA 'lou4u ,.

   The tube (not shown) can have a 41a & 'r .., al, that of the, .. bour or $ and if desired it can be put soft beforehand using a tube whose 41 ... tr. Interior is slightly there. behind the diameter of the drum, and expanding r.4: 1.81..8
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 tube to thread over the surface of the drum.
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  Again, the Oourrolet after sunk, is made up of toothed elements 331 of a mini film 34 placed below the section of the belt which ..1Itt. the traot1oa and a section 34 'placed over the * Open which resists traction 31 * Although nylon or dacron can be a * relatively given material # one nevertheless obtains a good penetration and a good adhdvonco by the use of the material 'la.tomè., 11qU14.

    likely to sink # at the same time
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 that by the use of the high vacuum which one applies there when is.
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 the material is introduced into the mold * In addition, the tensile strength can again make a rootentat at the bottom of the elements constituting the * and such aanie "and that we obtain a direct link of this section with% elements without the need to apply an opening or cover over the teeth and z the base of the teeth
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 as it should be done in the current construction of cour-
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 3? Ûiea <to illustrate the application of the present invention
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 the construction of other types of transmission belts,
 EMI16.9
 we showed.

   the figo? 4 uses a transverse mold aeetiea that can be used in forming a cast Y-belt structure ** In forming Belts $ es y #

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 EMI17.1
 Baiur.l1.mnt. the $ wadding action # z the traotioa is located 4ana the top of the belt and 4oartde of their contact surfaces 1nt4r1.ur ..;

   for this reason * ## the belt, in the casting operation ## can be formed from tagon 1n.lr. ', in the following manner coma aontr' .. the flower. 4, we provide a drum 35 whose peripheral surface have wavy, and this luzotaol being limited by a series of nernmon 36 alternating with don grooves 370 A 00 subject # however it should be noted that the # ui.'fao corrugated, in the tormailof41 the ' oAitlUot1oA of y-belts. does not play any other! '61 <t than to support a * * opening of cords 58 oonstituting the 'lottO .. "11 t ant', the traction, of the belt, For this reason $ the undulating surface can be of de.irél shape which .. u1VaDt the fora * which one wishes to give above the belt, as by 8 & 88pl1 a shape in teeth of oneself ## -or attracting 'a design with transverse ribs or tent. . distributed .. along the upper 4urtaos of the belt.

   The cord section can then be applied or wound onto the drum 35 in a bone-like manner.



  It has been described in connection with figure it so that the oordou are placed tightly against 3.M awnM 56 and also distributed on this ribs along the entire length of the belt. Instead of the regular interior surface of the envelope to be subjected to the vacuum 14 described in connection with the contemplated process for the manufacture of belts of the dontiol type.

   can then place around the mandrel 55 surrounded by the bead
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 an outer multi-cavity ball 40 containing several
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 trapezoidal or general drilled otvïtdo ta Y 41 spaced apart from each other and separated by ribs # extending VMW the bottom, of general shape on Y or trapezoidal and Zonque of Bumohoa * and suitably closed, the liquid elastomer such as polyurethant rubber liquid 4'lal 'is forced

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 EMI18.1
 of powder in the annular space between the mandrel 99 and the outer mold 40 4 * as described * 69 referring to the casting procedure * relating to the tooth hole * After reshaping the cavity, the cavity can be vulcanized. together in the usual way and after rotating the belt section At the tautbourt one can cut ohaoun.

   don # motion $ through the region of cords of the oourro1 .., through the section rtooutfaat the cords .. so as to ensure the dimensions * aav <! a * bl <t <la and rêtanting again in figure 4o on sees a finished right @ 45p montrA. Rotated, exhibiting a 1. tractlon 46 resistant lot10a formed by 1 # 4 bead. 38 in time you'un. 1 "- 47 placed inside the cords and an atioa 48 placed above the cords and in the form of a rib.
 EMI18.2
 It will still be that the liquid elastomeric material will shear to fully penetrate the bead section and form a. ptl110ul. thin 49 between the layer of beads and the contact surface of the ribs 36.

   From this lagoon, the cord $ motion can be incorporated into the belt body in a casting operation
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 unique and while being protected against contact with the outside, by the material of the body.
 EMI18.4
 



  It is evident, of course, from the foregoing bone that the process described above applies to T-belt construction designs other than those which have been specifically described.
It can be seen that the invention consists essentially of the substantially complete penetration of the resistant section, the traction by introducing a specially prepared elastomeric material, we the action of vacuum and a pressure if we
 EMI18.5
 desired,

   by exerting an extremely close control on the link- washing of the fluids which could have been trapped * in
 EMI18.6
 material and in the mold before casting, to obtain the desired adhesion and the desired incorporation of the cross section.

 <Desc / Clms Page number 19>

 
 EMI19.1
 reinforcement at this ?? *.

   In addition, by pre-subjecting the tensile-resistant section and then completely removing all fluid, and flowing the material around the layer to maintain it in a pre-tensioned state.
 EMI19.2
 alable, it will appear that lion is increasing. important ta90B the '.1.tano. , fatigue, in particular domo elatethiquan matters. It can also do only a certain reoi action. :

   , castling takes place during the TUloan1.ation operation, between the elastomer liquida and the tensile-resistant section so as to obtain a much better adhesion and integration of
 EMI19.3
 Motion resistant to traction in the belt and thus ensure a very increased longevity ... In addition $ the construction process of the belt is greatly simplified compared to
 EMI19.4
 to prooé4éa'ex18tanta, it allows the use of a. bono matter.
 EMI19.5
 single gene to form the avto combination body section;

   = 0 tensile strength, comprising a ... t1.rl dt suitable reinforcement to ensure the desired tensile strength, and this with or without prior treatment of the textile material * An additional important feature of . the present invention is the extent to which the angles of the fibers can be controlled by the complete penetration of the
 EMI19.6
 section resistant to traction by l "la.tom.1 liquid in mor.

   te to block the fibers at the desired angle throughout life says the run * 11. and evident that this also contributes
 EMI19.7
 greatly 1 increase the longevity of the belt and ensure 'more satisfactory rolling performance * for the latter.



  Moreover, and after vulcanization the construction of courtyard
 EMI19.8
 The grain obtained presents an almost negligible shrinkage and thus po = tt a precise dimene1onnem.nt to the formats of the desired oourroît. The belt was not also affected * annoyingly by a prolonged storage and presents a good stability due to the notch! degree of penetration,

     and the problems created by the humidity Ion 'gès largely eliminated -19-

 <Desc / Clms Page number 20>

 
We will also notice that by the complete elimination of humidity from the air, and other * its% locked in the matter *! re, we delete all empty spaces,

   and that the actual layer. both in tension escape the attack of undesirable agents * In addition it is visible which belts formed can be combined with other materials, if so desired such as for example an outer fabric / envelope, although which, as this has been said, this is not essential,

   and that the elastomeric material can ensure the quality. desired ** wear resistance and tensile strength * It should be understood, however, that the invention is not limited to a belt comprising only a textile reinforcement in combination with a material capable of being cast , and that the materials indicated above can be combined with other.,

     while nevertheless falling within the scope of the present invention. In addition, according to the invention, it is possible to form belts of different types and configurations, adapting to different applications))) for example constituting flat belt or conveyor belts * For example, instead of 'a drum or corrugated mandrel, a smooth-surface drum can be used and the tensile-resistant material can be applied,

     anyway desired on the surface of the drum. One can then cause 1 rolling of the material capable of being cast, as previously in and around the material subjected to traction and this material will form a film between the surface. drum face and the tensile-resistant layer, in aorta to employ the tensile-resistant layer to be in contact with exterior media. We can, of course,

   use various other formed molds in the process of building a belt of the desired shape *
By definition, the detailed description given if-de @@ us has been given only for the purpose of illustration without there being any limitation whatsoever *


    

Claims (1)

EMI21.1 MVENDieASIOM.- U- OeuzMia transmission ootaprinaat tinted Motion resistant to t.Ot10D. consisting of a '1'. '211 Charge carrier and a h080stln material. fine under vid * to come in direct contact and with strong adhesion with the door element = load * EMI21.2 Xf Belt dt tranem1..1on \ mitairt eeawa un. compound body section 4! a. aati ': .. la.10.'2: . b080linl can be ooulde and a. tensile-reflecting f1breusl layer incorporated into the body o110n 04 penetrating the layer uniformly through to press and intimately unite the fibers in a predetermined alignment and in a predetermined position in the body 3 - A belt according to claim 2 , in which EMI21.3 the belt section is characterized by only a thin film covering the tensile strength layer, at sepaoid intervals along a. of its face $ * 46- unitary transmission belt comprising a material 41aetomir..oul '. to define a section of flexible body visually visible, and a continuous layer of ordou incorporated during molding to the section of body to define the section thereof which resists tension, the cords being held with strong adhesion in a predetermined arrangement in the body, by complete penetration of the elastomeric material throughout the tensile-resistant layer. 5. A belt according to claim 4, in which EMI21.4 The body includes plugieurs, elementi of teeth defining the drive edges of the belt the cords and finding along the base of the elements of which * 9 while an elastomeric film covers one of the faces of the cores. at spaced intervals between the tooth elements. <Desc / Clms Page number 22> 5.- Unit transmission belt comprising a EMI22.1 body composed of a homogeneous elastomeric material which can be cast and a tensile-resistant layer, subjected to prior treatment, incorporated into the body section, this layer being EMI22.2 formed of a tensile strength strip formed 4'un. digging of material there, and material capable of being cast * 'extending continuously around the strip of fabric to EMI22.3 maintain and intimately unite the band inside the body in a position where this band has the seat of a prior traction and where it adheres strongly to the body $ 7.- unitary transmission belt according to the re- EMI22.4 vwadieation 6 in which the trauma-resistant layer consists of an endless tubular strip * 8.- Unit transmission right according to the EMI22.5 vendication 71 in which the aat layer defined by a synthetic tube pre-tensioned and where the section of the 4 ... top of the body which covers the tensile strength layer in% defines by a multiplicity of spaced ribs, with a thin layer of the elastomeric material covering the web of fabric between the ribs EMI22.6 9 * - Run. transmission unit according to arrangement 6, in which the body comprises a plurality of tooth mounts defining extensions of the body action formed integrally therewith, the web of tissue being arranged to lie at. the location of the root line of the tooth elements., a thin film of the elastomeric material covering the strip between the tooth elements, 10.- Positive drive belt comprising a multiplicity of load transmitting elements which are part of the monk component of a castable material which makes it EMI22.7 integral part, a tensile-resistant layer stdttn- ding along the base of these elements, this layer being <Desc / Clms Page number 23> EMI23.1 impregnated on the part OR part by the inability capable of being cast * so as to be associated with the elements $ in a uni- EMI23.2 keep 1 strong adhesion and fear of wear.- a dirt distribution and uaiforaw of the stresses Imposed $$ on the elements, 4ana the layer resistant to the traotion. il * - 4'ua compound positive drive belt. multiplicity 4t'lém.nt. load transmitters $ ooapm of to the monk part of a shade which can be oould which is an integral part of it, a layer resistant to the traot1on # studding along the bottom * of these elements, this layer being formed by a continuous layer of regularly spaced beads EMI23.3 1mprien "4 * leaves a part by the Matter capable of being poured # in aorta of atre associated with the elements in a un1ary arrangement with strong adhesion and to ensure a * direct and uniform distribution of the impure stresses to the elements, in the EMI23.4 layer resistant to traction 12.- Oourroi. positive drive comprising a * Multiplicity of load transmitting elements composed one. polyurethane rubber material capable of being cast *, EMI23.5 a layer resistant to trao; 10n. t '"lndan; along already the bottom * of the elements 9 this layer being formed by a ttyathétiquo excavation gives pressed in direct contact and wrongly..4h''A. ! this with the material of the rubber to ensure a direct and uniform distribution of the stresses in the layer resistant to the. pull-ups EMI23.6 13. * Unit belt without ± the compound * 4'un. mat1'r 'elastomer type polyurethane capable 4 "tr. casting, defining a section of wear resistant flexible body the cross section of which is 4'un. in general, a trapezoidal tome EMI23.7 soldale and a * very resistant layer * to iraot1on. load pot, inoorpor4, .. the upper part of the body section $ this tensile resistant layer being held * <Desc / Clms Page number 24> EMI24.1 a direetot cooperation with strong e4h'enol. area # the body, by the penetration of the elattombort material capable of being poured all around the diaper. 1. being at-traotions 14f unitary endless belt following the recasting 21, in which the diaper resists the traotion is o &: & otlr1 ... by an ayathetue sheet e * e'6end <mt according to the EMI24.2 belt width EMI24.3 15. * Belt 'i3' without tallow an t 1 re..n41. cation 2 ', in which the * opening retaining under traction in * CMaetëtwe by a continuous layer of natural untreated oor4oD8'.,. "tending to the width of the oo01 .. 160- unitary belt without fia according to .IT.n41oa. tion 21, in which the trauma-resistant oouaht is characterized by a continuous layer of wire .. 'metallic .. "- stretching across the width of the transmission belt 17 .. Ooo11 all void from a susceptible material 4 "trl'oou141, comprising a. tensile strength fibrous section oo1tv'l 4 "1 '.' '. load carriers and body part oozpromat ua .... tibrè capable of being cast, cast # all void, to come in cooperation direct to to.t..4h'r'oe with capable material EMI24.4 to be Goal .. by completely permeating the fibrous section EMI24.5 tensile strength and r.mp11..ant the interstices formed by the fibers. in the section resistant to trauma. 18 - Semait unit transmission vacuum molded, comprising a mat1 ':. dlastombre capable of dfttr4 aoul ... molded empties us, to define a section of flexible body resistant to Ilumure and comprising a part of 1nt 'body. laughing * of oomprousiog and a part of external body of traction, constituted twelve thin pellîoule 4 "l..iom ': 1 avae veins. transverse spaced apart lot from each other and a layer # traotion resistant, of fibrous cords 1noo .. pores & body section during molding and arranged mà <Desc / Clms Page number 25> EMI25.1 along the neutral axis between the external voltage part * and EMI25.2 the interior part of the oeapa '<s <i9a) this material completely permeates the fibrous cords and completely filling the intestlots of the cords and holding the cords in place firmly. a4h4reno .. 1 inside section EMI25.3 of body* EMI25.4 190- Or: r01. positive entrainment cast * empties us following reTen4ioation 10, in which the lying layer realizes the traction consists of a continuous layer of regularly fibrous strands ..pa04 .. 20 # - Vacuum coul4o unitary transmission belt * made of a * material <* # oaoutohouo of the poly = d thauf type which can be cast, molded all wrinkles # to define a * section of flexible body resistant to the union # comprising some gone. inner body * of oompr'.8ton and * outer body part * for traction comprising a sucking film of rubber material of the polrur'tbant type with transverse ribs spacing an oouoh..4.1.aat. la tr.ot1oa, of fibrous cord * incorporated in the oorps station during casting and arranged along the axis. neutral Besides the part and the inside * of raot1on and the inner part of 00ap "eotonf te 0a rubber of the shredding type completely permeating the * fibrous cords and completely filling the $ taterlt10" of the cords and keeping the oordons in place in the body ..0t1oa with strong adhdr # note